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FORD WSS-M21P52-A2 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, SILVER ***TO BE USED WITH FORD WSS-M99P1111-A***
May 25, 2018 - FORD

The materials defined by these specifications are corrosion protective coatings over steel and iron substrates. All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase...

FORD WSS-M21P52-A1 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, SILVER IRIDESCENT ***TO BE USED WITH FORD WSS-M99P1111-A***
May 25, 2018 - FORD

The materials defined by these specifications are corrosion protective coatings over steel and iron substrates. All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase...

FORD WSS-M21P52-A3 - FASTENER FINISH, MECHANICAL ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, SILVER-GREY ***TO BE USED WITH FORD WSS-M99P1111-A***
May 25, 2018 - FORD

The materials defined by these specifications are corrosion protective coatings over steel and iron substrates. All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase...

SAE AMS2451/10 - Plating, Brush, Tin-Zinc Low Hydrogen Embrittlement
June 1, 2018 - SAE

Purpose This specification covers the requirements for brush plating of tin-zinc by electrodeposition. Application This process has been used typically to improve corrosion resistance of steel parts, to repair tin-zinc deposits and to repair damaged or worn parts, but usage is...

FORD WSS-M21P52-A4 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, ENHANCED LUBRICITY, SILVER ***TO BE USED WITH FORD WSS-M99P1111-A***
May 25, 2018 - FORD

The materials defined by these specifications are corrosion protective coatings over steel and iron substrates. All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase...

SAE AMS2451/9 - Plating, Brush, Zinc-Nickel Low Hydrogen Embrittlement
August 1, 2018 - SAE

Purpose This specification covers the requirements for brush plating of zinc-nickel by electrodeposition. Application This process has been used typically to improve corrosion resistance of steel parts operating under 500 °F (260 °C) as-plated or under 250 °F (121 °C) when chromate...

SAE AMS2434 - Plating, Tin-Zinc Alloy
November 1, 2017 - SAE

Purpose This specification covers the requirements for electrodeposited tin-zinc alloy plating. Application This plating has been used typically as a corrosion resistant plating where cadmium cannot be used, as a replacement for tin plating where tin whisker...

FORD WSS-M21P17-B1 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUN, TOPCOAT SEALER ***TO BE USED WITH FORD WSS-M99P1111-A***
May 3, 2017 - FORD

These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.

FORD WSS-M21P17-B2 - CORROSION PROTECTIVE COATING, MECHANICAL ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER ***TO BE USED WITH FORD WSS-M99P1111-A***
May 3, 2017 - FORD

These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.

FORD WSS-M21P17-B3 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT ***TO BE USED WITH FORD WSS-M99P1111-A***
May 3, 2017 - FORD

These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.

FORD WSS-M21P17-B4 - CORROSION PROTECTIVE COATING, MECHANICAL ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT ***TO BE USED WITH FORD WSS-M99P1111-A***
May 3, 2017 - FORD

These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer

FORD WSS-M21P17-B5 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, FRICTION MODIFIED INTEGRAL TORQUE CONTROL SEALER ***TO BE USED WITH FORD WSS-M99P1111-A***
May 3, 2017 - FORD

These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.

SAE AMS2417 - Plating, Zinc-Nickel Alloy
September 1, 2013 - SAE

Purpose This specification covers the requirements for electrodeposition of a zinc-nickel alloy and the properties of the deposit. Application Zinc-nickel plating has been used typically to provide corrosion resistance to steel parts that may operate at elevated temperatures...

DELPHI DX551600 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE MECHANICAL ZINC AND ZINC-TIN PLATING
June 1, 2014 - DELPHI-I

This specification describes the basic requirements for mechanically deposited zinc and zinc-tin coatings on iron and steel substrates. The basic requirements may include: minimum plating thickness, plating surface treatments (e.g. trivalent chromium conversion...

FORD WSS-M1P87-A2 - PLATING, ZINC/NICKEL, BLACK ***TO BE USED WITH FORD WSS-M99P1111-A***
October 23, 2013 - FORD

This specification defines performance requirements for racked alloy coatings of zinc/nickel electrolytically deposited on ferrous surfaces from alkaline baths where corrosion protection with postplating trivalent chromium or hexavalent chromium free conversion treatment is required.

FORD WSA-M1P87-A1 - PLATING, ZINC/NICKEL ***TO BE USED WITH FORD WSS-M99P1111-A***
October 23, 2013 - FORD

This specification defines performance requirements for alloy coatings of zinc/nickel electrolytically deposited on ferrous surfaces from alkaline baths where corrosion protection treatment is required. A supplementary hexavalent chromium free coating and/or trivalent chrome may be...

DELPHI DX551300 - CORROSION PROTECTIVE COATINGS – ZINC ALLOY PLATING (HEXAVALENT CHROMIUM FREE)
December 1, 2011 - DELPHI-I

This specification covers the basic requirements for a barrel or rack electrodeposited zinc alloy plating system over a ferrous substrate. A plating system consists of; zinc alloy plating, a zinc-alloy surface treatment (e.g. trivalent chromium...

DELPHI DX551200 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE ZINC PLATING
April 1, 2009 - DELPHI-I

This specification describes the basic requirements for electroplated zinc coatings on iron and steel substrates. The basic requirements may include: minimum plating thickness, zinc surface treatments (e.g. trivalent chromium conversion coating), typical appearance, and...

FORD WSS-M21P50-A1 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT - ***TO BE USED WITH FORD WSS-M99111-A***
May 8, 2007 - FORD

These specifications define the performance of an electrolytic and mechanical plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.

DELPHI DX550073 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE TIN-ZINC ALLOY PLATING FOR GROUNDING APPLICATIONS
February 1, 2006 - DELPHI-I

This specification covers the basic requirements for electrodeposited tin-zinc alloy plating with a subsequent trivalent chromate post treatment. This coating is primarily used for fasteners designated for grounding applications. Sealers and organic topcoats are not permitted,...

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